CN205064175U - Lower wind direction aerogenerator's wind wheel structure - Google Patents

Abstract

The utility model provides a lower wind direction aerogenerator's wind wheel structure, it can solve the fixed paddle of present wind direction aerogenerator down in the big heavy handled problem of wind speed section. It includes wheel hub and blade, wheel hub pass through axle sleeve portion install in the wheel of fan epaxial and can the synchronous rotation with the shaft, its characterized in that: through connecting piece swing joint, the adjustment of windward angle and front face area can be realized to swing joint spare between wheel hub and the blade.

Description

A kind of wind wheel structure of leeward direction wind-driven generator

Technical field

The utility model relates to wind power generation device field, especially relates to leeward to wind power generation device field, is specially a kind of wind wheel structure of leeward direction wind-driven generator.

Background technique

At present in wind power generation field, leeward is all the fixed blades adopted to blower fan, see Fig. 1, its fixed blades 20-1 is installed on wheel hub 10, fixed blades 20-1(is shown in Fig. 1) wind-driven generator normally by Unloading Control, fault control or mechanical brake control realize large wind speed section rotating speed, power adjustment, but above-mentioned control mode is very high to the requirement of generator, and easily damage generator, once generator damages probably occur the phenomenons such as driving, very large hidden danger is caused to safety.

Summary of the invention

For the problems referred to above, the utility model provides a kind of wind wheel structure of leeward direction wind-driven generator, and it can solve existing leeward direction wind-driven generator fixed blades and be difficult to control problem in large wind speed section.

Its technological scheme is such, it comprises wheel hub and blade, described wheel hub to be installed on the wheel shaft of blower fan by shaft sleeve part and can with described wheel shaft synchronous axial system, it is characterized in that: described wheel hub is flexibly connected by link with between blade, the adjustment of angle and wind-exposuring area windward described in described active connection can realize.

Further, it also comprises Returnning spring, the upwind side that described Returnning spring one end is fixedly connected on the outer wall of the shaft sleeve part of described wheel hub, the other end is connected to described blade.

Further, described active connection is Flexible Connector, and described Flexible Connector comprises wheel hub joint and blade joint, and described wheel hub joint and blade joint are angle bending and connect into entirety;

Further, described Flexible Connector is all connected by the first bolt, the first nut with between described wheel hub, blade;

The connecting end of described wheel hub, blade and described Flexible Connector has Baltimore groove, and the wheel hub joint of described Flexible Connector, blade joint are flush-mounted in respectively after in described Baltimore groove and are locked by described first bolt, the first nut and described wheel hub, blade; Preferably, described Flexible Connector is rubber parts.

Further, described active connection is hinge means, is rotationally connected between described wheel hub and described blade by described hinge means;

Further, described hinge means comprises the first hinge plate and the second hinge plate, described first hinge plate is installed on described wheel hub by the second bolt, the second nut, described second hinge plate is installed on described blade by the 3rd bolt, the 3rd nut, is rotationally connected between described first hinge plate, the second hinge plate by rotatingshaft;

The hinge plate mounting end of described wheel hub, the hinge plate mounting end of described blade have L shape groove, described first hinge plate, the second hinge plate are installed in the L shape groove of described wheel hub, blade respectively, be connected with described second nut thread after wheel hub, the first hinge plate described in described second screw bolt passes and lock, be connected with described 3rd nut thread after blade, the second hinge plate described in described 3rd screw bolt passes and lock.

The wind wheel structure of leeward direction wind-driven generator of the present utility model, its structure is simple, blade is flexibly connected with wheel hub by active connection by it, when wind speed exceedes rated wind speed, blade is subject to windage and promotes under the effect of active connection upset forward thus realize the self-regulation of blade Windward angle and wind-exposuring area, therefore its blade Windward angle and wind-exposuring area can automatically regulate along with the change of wind speed and can not can not cause damage to generator, thus effectively ensure that the safe and reliable of fan operation; Returnning spring can play position-limiting action to blade, thus wind wheel structure when ensureing adjustment of blade angle is stable, and it is safe and reliable that further guarantee runs according to circumstances.

Accompanying drawing explanation

Fig. 1 is the wind wheel structure schematic diagram of existing fixed blades;

Fig. 2 is wind wheel structure schematic diagram after vane propeller-changing of a kind of leeward direction wind-driven generator of the utility model;

Fig. 3 is that in the utility model, active connection is the wind wheel structure schematic diagram of Flexible Connector;

Fig. 4 is the connection generalized section in the utility model between wheel hub, Flexible Connector and blade;

Fig. 5 is the utility model Elastic connecting-piece structure schematic diagram;

Fig. 6 is the generalized section that the utility model Elastic link is connected with blade assernbling;

Fig. 7 is the utility model Elastic link and blade assernbling schematic diagram;

Fig. 8 is the connection generalized section in the utility model between wheel hub, rigid pivoted and blade.

Embodiment

See Fig. 2, Fig. 3 and Fig. 4, the utility model blade wheel structure comprises wheel hub 10, blade 20, active connection and Returnning spring 40, wheel hub 10 is installed on the wheel shaft 50 of blower fan by shaft sleeve part 11 also can drive wheel shaft 50 synchronous axial system, be rotationally connected by active connection between wheel hub 10 and blade 20, active connection is Flexible Connector 31, see Fig. 5, Fig. 6 and Fig. 7, Flexible Connector 31 comprises wheel hub joint 311 and blade joint 312, wheel hub joint 311 is angle bending with blade joint 312 and connects into entirety, angle between wheel hub joint 311 and blade joint 312 is α, the effect of this angle α makes blade have individual torsional angle after becoming oar, produce resistance at vane rotary process Leaf thus suppress rotating speed, wheel hub 10, blade 20 have Baltimore groove with the connecting end of Flexible Connector 31, and the wheel hub joint 311 of Flexible Connector 31, blade joint 312 are flush-mounted in respectively after in Baltimore groove and are locked with wheel hub 10, blade 20 by the first bolt 61, first nut 62, the upwind side that Returnning spring 40 one end is fixedly connected on the outer wall of the shaft sleeve part 11 of wheel hub 10, the other end is connected to blade 20, wherein, Flexible Connector 31 is preferably rubber parts.When rated wind speed, blade 20 keeps design angle under the effect of Returnning spring 40 and between wheel hub 10, the blade 20 by wind impetus when wind speed exceedes rated wind speed, and owing to being connected by Flexible Connector 31 between blade 20 with wheel hub 10, therefore Flexible Connector 31 produces deformation thus realizes the Windward angle of blade 20 and the automatic adjustment of wind-exposuring area.

Active connection can also be hinge means 32, see Fig. 8, hinge means 32 comprises the first hinge plate 321 and the second hinge plate 322, first hinge plate 321 is installed on wheel hub 10 by the second bolt 63, second nut 64, second hinge plate 322 is installed on blade 20 by the 3rd bolt 65, the 3rd nut 66, is rotationally connected between the first hinge plate 321, second hinge plate 322 by rotatingshaft 323; The hinge plate mounting end of wheel hub 10, the hinge plate mounting end of blade 20 have L shape groove, first hinge plate 321, second hinge plate 322 is installed in the L shape groove of wheel hub, blade respectively, second bolt 63 is locked through being threaded with the second nut 64 after wheel hub 10, first hinge 321 plate successively, and the 3rd bolt 65 is locked through being threaded with the 3rd nut 65 after blade 20, second hinge plate 322 successively; When wind speed exceedes rated wind speed, blade 20 by wind promotes drive second hinge plate 322 moving axis 323 that rotates and rotates thus realize the Windward angle of blade 20 and the automatic adjustment of wind-exposuring area.

In accompanying drawing, A is to being wind direction.

After adopting blade wheel structure of the present utility model, the power of rated wind speed section that it has before guarantee and the basis of rotating speed effectively can control high wind speed section rotating speed, make it can effective output power very well in high wind speed section, considerably increase generated output and increase applicable wind speed range; Meanwhile, the propeller pitch angle of blade can be changed and wind-exposuring area makes the load of wind wheel to generator reduce and reduces pylon load in high wind speed section; And blade can make its zero response time recover corresponding state under the action of the spring, thus increase generating efficiency; In addition blade structure of the present utility model is lower to the requirement of generator in vane propeller-changing adjustment process, thus also effectively can reduce the operating cost that automatically controlled cost also finally can reduce wind-driven generator.

Claims (8)

1. the wind wheel structure of a leeward direction wind-driven generator, it comprises wheel hub and blade, described wheel hub to be installed on the wheel shaft of blower fan by shaft sleeve part and can with described wheel shaft synchronous axial system, it is characterized in that: described wheel hub is flexibly connected by link with between blade, when wind speed exceedes rated wind speed, blade is subject to windage and promotes under the effect of active connection upset forward thus realize the self-regulation of blade Windward angle and wind-exposuring area, the adjustment of angle and wind-exposuring area windward described in described active connection can realize;

It also comprises Returnning spring, the upwind side that described Returnning spring one end is fixedly connected on the outer wall of the shaft sleeve part of described wheel hub, the other end is connected to described blade.

2. the wind wheel structure of a kind of leeward direction wind-driven generator according to claim 1, it is characterized in that: described active connection is Flexible Connector, described Flexible Connector comprises wheel hub joint and blade joint, and described wheel hub joint and blade joint are angle bending and connect into entirety.

3. the wind wheel structure of a kind of leeward direction wind-driven generator according to claim 2, is characterized in that: described Flexible Connector is all connected by the first bolt, the first nut with between described wheel hub, blade.

4. the wind wheel structure of a kind of leeward direction wind-driven generator according to claim 3, it is characterized in that: the connecting end of described wheel hub, blade and described Flexible Connector has Baltimore groove, the wheel hub joint of described Flexible Connector, blade joint are flush-mounted in respectively after in described Baltimore groove and are locked by described first bolt, the first nut and described wheel hub, blade.

5. the wind wheel structure of a kind of leeward direction wind-driven generator according to claim 3 or 4, is characterized in that: described Flexible Connector is preferably rubber parts.

6. the wind wheel structure of a kind of leeward direction wind-driven generator according to claim 1, is characterized in that: described active connection is hinge means, is rotationally connected between described wheel hub and described blade by described hinge means.

7. the wind wheel structure of a kind of leeward direction wind-driven generator according to claim 6, it is characterized in that: described hinge means comprises the first hinge plate and the second hinge plate, described first hinge plate is installed on described wheel hub by the second bolt, the second nut, described second hinge plate is installed on described blade by the 3rd bolt, the 3rd nut, is rotationally connected between described first hinge plate, the second hinge plate by rotatingshaft.

8. the wind wheel structure of a kind of leeward direction wind-driven generator according to claim 7, it is characterized in that: the hinge plate mounting end of described wheel hub, the hinge plate mounting end of described blade have L shape groove, described first hinge plate, the second hinge plate are installed in the L shape groove of described wheel hub, blade respectively, be connected with described second nut thread after wheel hub, the first hinge plate described in described second screw bolt passes and lock, be connected with described 3rd nut thread after blade, the second hinge plate described in described 3rd screw bolt passes and lock.